CN108322876A - A kind of dynamic iron construction - Google Patents

Abstract

Embodiment of the present invention is related to loudspeaker technical field, more particularly to a kind of dynamic iron construction.This moves iron construction：Shell, is provided with air flue, first through hole and the second through-hole, and first through hole is connected to the second through-hole by air flue；Magnetic element；Vibrating diaphragm, vibrating diaphragm are provided with the first lug boss compatible with first through hole on one side；Electromagnetic induction coil is fixed on another surface with vibrating diaphragm, and electromagnetic induction coil is located in the magnetic field of magnetic element；When electromagnetic induction coil is powered, electromagnetic induction coil can drive vibrating diaphragm direction or be moved towards the direction far from first through hole, thus, by the relative motion for controlling electromagnetic induction coil and magnetic element, so that the first lug boss is realized with first through hole and the states such as blocks and detach, to realize the connected state of control first through hole and the second through-hole, user can hear extraneous sound when connection, to also it maintain an equal level with extraneous air pressure inside human ear, safety when thus improving user's wearing earphone and comfort.

Description

A kind of dynamic iron construction

Technical field

Embodiment of the present invention is related to loudspeaker technical field, more particularly to a kind of dynamic iron construction.

Background technology

With the fast development of science and technology and national economy, the electronic equipments such as In-Ear Headphones and hearing aid are also able to soon Speed development, due to dynamic iron unit volume very little, can easily be put into duct, therefore dynamic iron unit is widely used in In-Ear ear In machine or hearing aid.

In the implementation of the present invention, problems with exists in the prior art in the present inventor：Existing In technology, either hearing aid is enclosed construction when In-Ear Headphones or hearing aid fits are in user to In-Ear Headphones When ear, duct can be blocked completely, to generate a kind of Occlusion effect, such as user using In-Ear Headphones listen to music when It waiting, user can not catch the sound of speech of oneself or external sound, cause user that can not normally be linked up with others, Even when user walks and listens to music, can due to can not hear the warning sound such as external car horn, vehicle the tinkle of bells and Lead to safety problem, in addition, due to In-Ear Headphones or hearing aid can completely plugged duct, user wears for a long time will be due to The air pressure of interior external auditory canal is different, and user is caused to have discomfort.

Invention content

For embodiment of the present invention mainly solving the technical problems that providing a kind of dynamic iron construction, dynamic iron construction is provided with first Channel and second channel are connected to by controlling first passage with second channel, are realized the connection with the external world inside control human ear.

In order to solve the above technical problems, the technical solution that embodiment of the present invention uses is：A kind of dynamic iron knot is provided Structure, including：Shell, is provided with air flue, first through hole and the second through-hole, and the first through hole and the second through-hole pass through the gas Road is connected to；Magnetic element；Vibrating diaphragm, the vibrating diaphragm are provided with the first lug boss compatible with the first through hole on one side；Electricity Magnetic induction coil is fixed on another surface with the vibrating diaphragm, and the electromagnetic induction coil is located at the magnetic element In magnetic field；

When the electromagnetic induction coil is powered, the electromagnetic induction coil can drive the vibrating diaphragm towards or towards separate The direction of first through hole moves, wherein when first lug boss moves to closed position, first lug boss will be described First through hole blocks, when first lug boss moves to open position, first lug boss and the first through hole point From the first through hole is opened.

Optionally, the magnetic element, vibrating diaphragm and electromagnetic induction coil are respectively positioned in air flue.

Optionally, for the vibrating diaphragm by the airway segmentation at upper gas circuit and lower gas circuit, the vibrating diaphragm is additionally provided with intercommunicating pore, The upper gas circuit is connected to the first through hole and the intercommunicating pore respectively, the lower gas circuit respectively with the second through-hole and the company Through-hole is connected to, and the magnetic element and electromagnetic induction coil are respectively positioned on lower gas circuit.

Optionally, the intercommunicating pore is shifted to install with the first through hole.

Optionally, the dynamic iron construction further includes support ring, and the support ring is fixed in the air flue；The vibrating diaphragm packet Film and flutter are included, the film is fixed in the support ring, and the flutter is fixed on the film, first protrusion Portion is located at the flutter, and the electromagnetic induction coil is fixed on film.

Optionally, the film includes the second lug boss, fixed part, interconnecting piece and intercommunicating pore；Second lug boss by The central raised formation of the film, second lug boss are connect by the interconnecting piece with the fixed part, the fixation Portion is used for and the support ring is fixed, and the intercommunicating pore is set between the fixed part and second lug boss, and described the Two lug bosses are used for and first lug boss is fixed.

Optionally, the first through hole, first lug boss and second lug boss are ellipse.

Optionally, the electromagnetic induction coil is annular in shape；The magnetic element further includes annular groove, the electromagnetic induction line Circle is set in the annular groove.

Optionally, the shell includes upper shell, lower housing and sealing plate；The sealing plate is located at the upper shell and institute It states between lower housing and is fixed respectively with the upper shell and the lower housing, the first through hole is set to the sealing plate Middle part, the upper shell are provided with the third through-hole opposite with the first through hole, and second through-hole is set to the lower casing Body.

Optionally, the magnetic element includes magnet and magnetic inductive block, the magnet and the magnetic inductive block fix with it is described The bottom of lower housing, the magnet and the magnetic inductive block are fixed.

Optionally, the magnet includes the first main magnet block, the first side magnet piece and the second side magnet piece, the magnetic inductive block Including the first magnetic conductive board, the second magnetic conductive board and annular magnetic conductive board；First magnetic conductive board is fixed on the bottom of the lower housing, institute It states the first main magnet block, the first side magnet piece and the second side magnet piece to fix with first magnetic conductive board, and described Side magnet piece and the second side magnet piece are located at the both sides of the first main magnet block, and second magnetic conductive board is fixed In on the first main magnet block, the annular magnetic conductive board is fixed on first side magnet piece and the second side magnet piece On, the support ring is fixed on the annular magnetic inductive block.

Optionally, two opposite ends of first magnetic conductive board are respectively arranged with support element, and the support element is by described first The end face of two opposite ends of magnetic conductive board extends to form in the same direction, and the support element is used to support the annular magnetic conductive board.

Optionally, the quantity of second through-hole is two, and second through-hole is set to the both sides of the support element.

The advantageous effect of embodiment of the present invention is：The case where being different from the prior art is moved in embodiments of the present invention Iron construction includes：Shell, is provided with air flue, first through hole and the second through-hole, and the first through hole and the second through-hole pass through institute State air flue connection；Magnetic element；Vibrating diaphragm, the vibrating diaphragm are provided with the first protrusion compatible with the first through hole on one side Portion；Electromagnetic induction coil is fixed on another surface with the vibrating diaphragm, and the electromagnetic induction coil is located at the magnetic member In the magnetic field of part；When the electromagnetic induction coil is powered, the electromagnetic induction coil can drive the vibrating diaphragm direction or court Direction far from first through hole moves, wherein when first lug boss moves to closed position, first lug boss will The first through hole blocks, and when first lug boss moves to open position, first lug boss is logical with described first Hole detaches, and the first through hole is opened.As a result, by controlling the relative motion of electromagnetic induction coil and magnetic element, make the One lug boss and first through hole, which are realized, the states such as blocks and detaches, to realize control first through hole and the second through-hole be connected to or Person is not connected to, and moves iron construction and is applied to the electronic equipments such as In-Ear Headphones or hearing aid, when first through hole and the second through-hole It when connection, will be in communication with the outside inside human ear, user can hear extraneous sound, and the gas inside human ear with the external world at this time Pressure will also maintain an equal level, thus improve user wear earphone when safety and comfort.

Description of the drawings

One or more embodiments are illustrated by the picture in corresponding attached drawing, these are exemplary Illustrate not constitute the restriction to embodiment, the element with same reference numbers label is expressed as similar member in attached drawing Part, unless there are special statement, composition does not limit the figure in attached drawing.

Fig. 1 is the stereogram of the dynamic iron construction embodiment of the present invention；

Fig. 2 is the vertical view of the dynamic iron construction embodiment of the present invention；

Fig. 3 is the explosive view of the dynamic iron construction embodiment of the present invention；

Fig. 4 is the sectional view of A-A shown in Fig. 2；

Fig. 5 is the cross-section diagram of B-B shown in Fig. 2；

Fig. 6 is the explosive view of the dynamic iron construction embodiment middle casing of the present invention；

Fig. 7 is the explosive view of magnetic element in the dynamic iron construction embodiment of the present invention；

Fig. 8 is the explosive view of vibrating diaphragm in the dynamic iron construction embodiment of the present invention；

Fig. 9 is the vertical view of film in the dynamic iron construction embodiment of the present invention.

Specific implementation mode

To facilitate the understanding of the present invention, with reference to the accompanying drawings and detailed description, the present invention is carried out in more detail It is bright.It should be noted that when element is expressed " being fixed on " another element, it can directly on another element or May exist one or more elements placed in the middle therebetween.When an element is expressed " connection " another element, it can be straight It is connected to another element in succession or may exist one or more elements placed in the middle therebetween.Term used in this specification " vertically ", " horizontal ", "left", "right" and similar statement are for illustrative purposes only.

Unless otherwise defined, technical and scientific term all used in this specification is led with the technology for belonging to the present invention The normally understood meaning of technical staff in domain is identical.Used term is only in the description of the invention in this specification The purpose of description specific embodiment is not intended to the limitation present invention.Term "and/or" used in this specification includes Any and all combinations of one or more relevant Listed Items.

It please refers to Fig.1 to Fig. 5, a kind of dynamic iron construction 100 of embodiment of the present invention, which includes shell 10, magnetic element 20, vibrating diaphragm 30, electromagnetic induction coil 40 and support ring 50, magnetic element 20, vibrating diaphragm 30, electromagnetic induction coil 40 and support ring 50 be respectively positioned in shell 10, magnetic element 20 is fixed in shell 10, and support ring 50 is fixed on magnetic element 20 On, vibrating diaphragm 30 is fixed in support ring 50, and electromagnetic induction coil 40 is fixed on vibrating diaphragm 30 and electromagnetic induction coil 40 is located at magnetic In the magnetic field of property element 20.

Wherein, further referring to Fig. 6, shell 10 includes sealing plate 11, lower housing 12 and upper shell 13；Sealing plate 11 Fixed between upper shell 13 and lower housing 12 and respectively with upper shell 13 and lower housing 12, shell 10 be additionally provided with air flue 14, First through hole 111, the second through-hole 121 and third through-hole 131；Specifically, magnetic element 20, vibrating diaphragm 30, electromagnetic induction coil 40 It is respectively positioned in air flue 14 with support ring 50, and support ring 50 is fixed in air flue 14；First through hole 111 is set to sealing plate 11 Middle part, the second through-hole 121 are set to lower housing 12, and third through-hole 131 is set to upper shell 13, and first through hole 111 and third Through-hole 131 is oppositely arranged；Optionally, air flue 14 is enclosed by sealing plate 11 and lower housing 12, and first through hole 111 and second is logical Hole 121 is connected to by air flue 14, further, between third through-hole 131, first through hole 111, air flue 14 and the second through-hole 121 Be sequentially communicated, extraneous gas can sequentially pass through third through-hole 131, first through hole 111, air flue 14 and the second through-hole 121 into Row circulation.Optionally, the shape of first through hole 111, the second through-hole 121 and third through-hole 131 can be ellipse, it is round or Rectangle etc..

Further referring to Fig. 7, magnetic element 20 includes magnet 21 and magnetic inductive block 22, and magnet 21 and magnetic inductive block 22 are fixed With the bottom of lower housing 12, it is fixed to each other between magnet 21 and magnetic inductive block 22.Further, magnet 21 includes the first main magnet block 211, the first side magnet piece 212 and the second side magnet piece 213, magnetic inductive block 22 include the first magnetic conductive board 221, the second magnetic conductive board 222 With annular magnetic conductive board 223；First magnetic conductive board 221 is fixed on the bottom of lower housing 12, the first main magnet block 211, the first side magnet Block 212 and the second side magnet piece 213 are fixed with the first magnetic conductive board 221, and the first side magnet piece 212 and the second side magnet piece 213 are located at the both sides of the first main magnet block 221, the first side magnet piece 212 and the second side magnet piece 213 and the first main magnet There is spacing between block 221 and spacing is identical；Optionally, the first side magnet piece 212 and the second side magnet piece 213 are strip The magnet piece of shape and their cross section are rectangle, and the first main magnet block 221 is the magnet piece of wide flat and its cross section For rectangle.Second magnetic conductive board 222 is fixed on the first main magnet block 211, and annular magnetic conductive board 223 is fixed on the first side magnet piece 212 and the second side magnet piece 213 on and fix with the madial wall of lower housing 12, support ring 50 is fixed on annular magnetic inductive block 223 And it is fixed with the madial wall of lower housing 12.Further, in order to preferably fix and support annular magnetic conductive board 223, the first magnetic conduction Two opposite ends of plate 221 are respectively arranged with support element 2211, support element 2211 by the first magnetic conductive board 221 two opposite ends end face It extends to form in the same direction, support element 2211 is used to support annular magnetic conductive board 223, and optionally, the quantity of support element 2211 is Two and be located at the first magnetic conductive board 221 two opposite ends middle part, be mutually parallel between two support elements 2211 and It is vertical with the first magnetic conductive board 221.Optionally, the quantity of the second through-hole 121 is two, and the second through-hole 121 is set to support element 2211 both sides avoid support element 2211 from blocking the second through-hole 121.Optionally, electromagnetic induction coil 40 is annular in shape；Magnetic element 20 further include annular groove (not indicating), and electromagnetic induction coil 40 is set in annular groove, specifically, annular groove is by annular magnetic conduction What plate 223 and the second magnetic conductive board 222 were enclosed.

Further referring to Fig. 8 and Fig. 9, vibrating diaphragm 30 is provided with first protrusion compatible with first through hole 111 on one side Portion 321；Air flue 14 is divided into upper gas circuit (not indicating) and lower gas circuit (not indicating) by vibrating diaphragm 30, and vibrating diaphragm 30 is additionally provided with intercommunicating pore 314, upper gas circuit is connected to first through hole 111 and intercommunicating pore 314 respectively, lower gas circuit respectively with the second through-hole 121 and intercommunicating pore 314 Connection, magnetic element 20 and electromagnetic induction coil 40 are respectively positioned on lower gas circuit.Optionally, intercommunicating pore 314 misplaces with first through hole 111 Setting, it is ensured that first lug boss 321 is moved on vibrating diaphragm 30 when being sealed with first through hole 111, and intercommunicating pore 314 can be with sealing plate 11 abut and are sealed by intercommunicating pore 314.Specifically, vibrating diaphragm 30 includes film 31 and flutter 32, film 31 is fixed on support ring 50 On, flutter 32 is fixed on film 31, and the first lug boss 321 is located at flutter 32, and the first lug boss 321 is convex by the middle part of flutter 32 It rises and is formed.Optionally, film 31 and flutter 32 be by together with hot-forming, the upper surface of flutter 32 can with silicone spray or Other soft rubber materials, it is ensured that first lug boss 321, which is moved to the when of being sealed with first through hole 111, on vibrating diaphragm 30 has preferably Leakproofness.Further, film 31 includes the second lug boss 311, fixed part 312, interconnecting piece 313 and intercommunicating pore 314；Second is convex Central raised formation of the portion 311 by film 31 is played, the second lug boss 311 is connect by interconnecting piece 313 with fixed part 312, fixed Portion 312 is used for and support ring 50 is fixed, and intercommunicating pore 314 is set between fixed part 312 and the second lug boss 311, the second protrusion Portion 311 is used for and the first lug boss 321 is fixed.Optionally, interconnecting piece 313 takes the shape of the letter U structure, and the interconnecting piece 313 of U-shaped structure One end connecting portion 312, the extension that the other end and 311 edge of the second lug boss of the interconnecting piece 313 of U-shaped structure extend (not marking) connects, and U-lag can increase towards sealing plate 11, the interconnecting piece 313 of U-shaped structure on the interconnecting piece 313 of U-shaped structure The deformability of strong vibrating diaphragm 30 so that the deformation scope of activities bigger of the first lug boss 321.Optionally, 321 He of the first lug boss Second lug boss 311 is ellipse, and the size and shape all same of the first lug boss 321 and the second lug boss 311.

Electromagnetic induction coil 40 is fixed on another surface with vibrating diaphragm 30, specifically, electromagnetic induction coil 40 be fixed on it is thin Film 31, and electromagnetic induction coil 40 is located in the magnetic field of magnetic element 20.Further, it further includes lead to move iron construction 100, Lead is connect with electromagnetic induction coil 40 and external control power supply respectively.

It should be noted that：The dynamic iron construction 100 of embodiment of the present invention can be applied to In-Ear Headphones or hearing aid The In-Ear electronic equipment such as device.

In embodiments of the present invention, when electromagnetic induction coil 40 is powered, electromagnetic induction coil 40 can drive vibrating diaphragm 30 Towards or towards the direction movement far from first through hole 111, wherein when the first lug boss 321 moves to closed position, first Lug boss 321 blocks first through hole 111, and first through hole 111 will not be connected to the second through-hole 121 at this time, gas or sound 121 gas of the second through-hole or sound can not be either transferred to from the circulation of first through hole 111 can not also to flow from the second through-hole 121 Logical or be transferred to first through hole 111, further, the dynamic iron construction 100 of embodiment of the present invention is in earphone, when the When one lug boss 321 blocks first through hole 111, user will be unable to hear extraneous sound, and user's human ear and extraneous gas Pressure will be unable to balance；Referring again to Fig. 5, when the first lug boss 321 moves to open position, the first lug boss 321 and first Through-hole 111 detaches, and first through hole 111 is opened, and first through hole 111 will be connected to the second through-hole 121 at this time, gas or sound It can either be transferred to 121 gas of the second through-hole from the circulation of first through hole 111 or sound can also be flowed from the second through-hole 121 Lead to or be transferred to first through hole 111, so when the first lug boss 321 is detached with first through hole 111, user can hear Extraneous sound, and user's human ear and extraneous air pressure also will balances.It should be noted that closed position refers to the first protrusion By the completely plugged position of first through hole 111, open position refers to the first lug boss 321 not completely by first through hole in portion 321 111 completely plugged positions, open position include multiple locational spaces.As a result, by controlling electromagnetic induction coil 40 and magnetism The relative motion of element 20 realizes that the first lug boss 321 carries out blocking or separate state to first through hole 111, to real Now control first through hole 111 and the second through-hole 121 being connected to or not being connected to, when the company of first through hole 111 and the second through-hole 121 It when logical, will be in communication with the outside inside human ear, user can hear extraneous sound, and human ear inside and extraneous air pressure at this time Also will maintain an equal level, thus improve user wear earphone when safety and comfort.

It is worth noting that：Dynamic iron construction 100 in embodiment of the present invention drives without additional electricity, but passes through control The movement that electromagnetic induction coil 40 processed carries out in the magnetic field of magnetic element 20 can realize the first lug boss 321 and first through hole 111 relative motion, the composite structure of electromagnetic induction coil 40 and magnetic element 20 will more in this dynamic iron construction 100 as a result, It is compact, save space.

Mode the above is only the implementation of the present invention is not intended to limit the scope of the invention, every to utilize this Equivalent structure or equivalent flow shift made by description of the invention and accompanying drawing content, it is relevant to be applied directly or indirectly in other Technical field is included within the scope of the present invention.

Claims (13)

1. a kind of dynamic iron construction, which is characterized in that including：

Shell, is provided with air flue, first through hole and the second through-hole, and the first through hole and the second through-hole are connected by the air flue It is logical；

Magnetic element；

Vibrating diaphragm, the vibrating diaphragm are provided with the first lug boss compatible with the first through hole on one side；

Electromagnetic induction coil is fixed on another surface with the vibrating diaphragm, and the electromagnetic induction coil is located at the magnetism In the magnetic field of element；

When the electromagnetic induction coil is powered, the electromagnetic induction coil can drive the vibrating diaphragm towards or towards far from first The direction of through-hole moves, wherein when first lug boss moves to closed position, first lug boss is by described first Through-hole blocks, and when first lug boss moves to open position, first lug boss is detached with the first through hole, institute First through hole is stated to be opened.

2. dynamic iron construction according to claim 1, which is characterized in that

The magnetic element, vibrating diaphragm and electromagnetic induction coil are respectively positioned in the air flue.

3. dynamic iron construction according to claim 2, which is characterized in that

For the vibrating diaphragm by the airway segmentation at upper gas circuit and lower gas circuit, the vibrating diaphragm is additionally provided with intercommunicating pore, the upper gas circuit It being connected to respectively with the first through hole and the intercommunicating pore, the lower gas circuit is connected to the second through-hole and the intercommunicating pore respectively, The magnetic element and electromagnetic induction coil are respectively positioned on lower gas circuit.

4. dynamic iron construction according to claim 3, which is characterized in that

The intercommunicating pore is shifted to install with the first through hole.

5. dynamic iron construction according to claim 3, which is characterized in that

The dynamic iron construction further includes support ring, and the support ring is fixed in the air flue；

The vibrating diaphragm includes film and flutter, and the film is fixed in the support ring, and the flutter is fixed on the film On, first boss is fixed on film in the flutter, the electromagnetic induction coil.

6. dynamic iron construction according to claim 5, which is characterized in that

The film includes the second lug boss, fixed part, interconnecting piece and intercommunicating pore；

Second lug boss by the film central raised formation, second lug boss by the interconnecting piece with it is described Fixed part connects, and the fixed part is used for and the support ring is fixed, and the intercommunicating pore is set to the fixed part and described the Between two lug bosses, second lug boss is used for and first lug boss is fixed.

7. dynamic iron construction according to claim 6, which is characterized in that

The first through hole, first lug boss and second lug boss are ellipse.

8. dynamic iron construction according to claim 1, which is characterized in that

The electromagnetic induction coil is annular in shape；

The magnetic element further includes annular groove, and the electromagnetic induction coil is set in the annular groove.

9. dynamic iron construction according to claim 5, which is characterized in that

The shell includes upper shell, lower housing and sealing plate；

The sealing plate is between the upper shell and the lower housing and solid with the upper shell and the lower housing respectively Fixed, the first through hole is set to the middle part of the sealing plate, and the upper shell is provided with opposite with the first through hole the Three through-holes, second through-hole are set to the lower housing.

10. dynamic iron construction according to claim 9, which is characterized in that

The magnetic element includes magnet and magnetic inductive block, and the magnet and the magnetic inductive block are both secured to the bottom of the lower housing Portion, the magnet and the magnetic inductive block are fixed.

11. dynamic iron construction according to claim 10, which is characterized in that

The magnet includes the first main magnet block, the first side magnet piece and the second side magnet piece, and the magnetic inductive block is led including first Magnetic sheet, the second magnetic conductive board and annular magnetic conductive board；

First magnetic conductive board is fixed on the bottom of the lower housing, the first main magnet block, the first side magnet piece and described The second side magnet piece is fixed with first magnetic conductive board, and first side magnet piece and the second side magnet piece distinguish position In the both sides of the first main magnet block, second magnetic conductive board is fixed on the first main magnet block, the annular magnetic conduction Plate is fixed on first side magnet piece and the second side magnet piece, and the support ring is fixed on the annular magnetic inductive block On.

12. dynamic iron construction according to claim 11, which is characterized in that

Two opposite ends of first magnetic conductive board are respectively arranged with support element, the support element by first magnetic conductive board two-phase The end face of opposite end extends to form in the same direction, and the support element is used to support the annular magnetic conductive board.

13. dynamic iron construction according to claim 12, which is characterized in that

The quantity of second through-hole is two, and second through-hole is set to the both sides of the support element.